The potential of array tubes lies in their microstructure, but realizing their full performance depends heavily on every step of the processing route from initial growth to final application.

Nickel-based carbon nanotubes facilitate rapid lithium ion migration within the battery through multiple mechanisms: building an efficient conductive network, acting as a catalyst.

Iron-based carbon nanotubes are not only conductive materials but also the "architects" of electrode microstructures. Leveraging their high aspect ratio and metallic catalytic properties, they construct an efficient.

Iron-based carbon nanotubes, thanks to their high aspect ratio, excellent conductivity, good dispersibility, and the synergistic effect of iron.

Array tubes play a vital role in modern industry. Their ability to meet the specific needs of diverse industries is primarily due to their unique physical and chemical properties and highly customizable processing.

With its excellent conductivity, structural stability and catalytic performance, cobalt-based carbon nanotubes have shown great potential in improving the energy density of lithium batteries.